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Development of a novel glycoengineering platform for the rapid production of conjugate vaccines.

Authors :
Abouelhadid S
Atkins ER
Kay EJ
Passmore IJ
North SJ
Lehri B
Hitchen P
Bakke E
Rahman M
Bossé JT
Li Y
Terra VS
Langford PR
Dell A
Wren BW
Cuccui J
Source :
Microbial cell factories [Microb Cell Fact] 2023 Aug 18; Vol. 22 (1), pp. 159. Date of Electronic Publication: 2023 Aug 18.
Publication Year :
2023

Abstract

Conjugate vaccines produced either by chemical or biologically conjugation have been demonstrated to be safe and efficacious in protection against several deadly bacterial diseases. However, conjugate vaccine assembly and production have several shortcomings which hinders their wider availability. Here, we developed a tool, Mobile-element Assisted Glycoconjugation by Insertion on Chromosome, MAGIC, a novel biotechnological platform that overcomes the limitations of the current conjugate vaccine design method(s). As a model, we focused our design on a leading bioconjugation method using N-oligosaccharyltransferase (OTase), PglB. The installation of MAGIC led to at least twofold increase in glycoconjugate yield via MAGIC when compared to conventional N-OTase based bioconjugation method(s). Then, we improved MAGIC to (a) allow rapid installation of glycoengineering component(s), (b) omit the usage of antibiotics, (c) reduce the dependence on protein induction agents. Furthermore, we show the modularity of the MAGIC platform in performing glycoengineering in bacterial species that are less genetically tractable than the commonly used Escherichia coli. The MAGIC system promises a rapid, robust and versatile method to develop vaccines against serious bacterial pathogens. We anticipate the utility of the MAGIC platform could enhance vaccines production due to its compatibility with virtually any bioconjugation method, thus expanding vaccine biopreparedness toolbox.<br /> (© 2023. BioMed Central Ltd., part of Springer Nature.)

Details

Language :
English
ISSN :
1475-2859
Volume :
22
Issue :
1
Database :
MEDLINE
Journal :
Microbial cell factories
Publication Type :
Academic Journal
Accession number :
37596672
Full Text :
https://doi.org/10.1186/s12934-023-02125-y